Transcript
PCX 46 App Installation Reference
A. Contents Page A. Contents Page ....................................................................................................................2 1. System Overview .....................................................................................................................3 1.1 The Devices ........................................................................................................................4 1.2 PCX 46 App Input Mapping Overview: ........................................................................................6 1.3 PCX 46 App Output Mapping .....................................................................................................6 2. Out of the box .........................................................................................................................7 3. The Printed Circuit Board ...........................................................................................................8 3.1 Technical Specification..........................................................................................................9 3.2 Important Installation Notes ................................................................................................ 10 3.3 Communication Loom ......................................................................................................... 11 3.4 Power and Battery Connections for the PCX 46 APP L ................................................................. 12 3.5 Power and Battery Connections for the PCX 46 APP S ................................................................ 13 4. Input Connections .................................................................................................................. 14 4.1 Normally Closed Input Wiring .............................................................................................. 14 4.2 Grade 2 DEOL (Double End of Line) Input Wiring .................................................................... 15 4.3 Grade 3 Mask/Fault Input Wiring.......................................................................................... 15 5. Output (PGM) Connections ...................................................................................................... 16 5.1 XPGM Connections ............................................................................................................. 16 6. External Sounder Connections .................................................................................................. 17 6.1 Grade 3 External Sounder Wiring ......................................................................................... 17 6.2 Grade 2 External Sounder Wiring with a Grade 3 Bell .............................................................. 17 6.3 Grade 2 External Sounder Wiring ......................................................................................... 18 7. Connecting the PCX Peripherals ................................................................................................ 19 7.1 Connecting The PCX-LCD Keypad (PCX-LCD/EX)..................................................................... 19 7.2 Connecting The Internal Tag Reader (PCX-PROX/INT) ............................................................. 22 7.3 Connecting The External Proximity Reader (PCX-EXT-BK) ........................................................ 24 7.1 Connecting The PCX-RIX8i (Remote Input Expander with Inertia) ............................................. 27 7.2 Connecting The PCX-RIX8+ (Remote Input Expander with 4 PGMs) ........................................... 31 7.3 Connecting The PCX-RIX8+PSU (Remote Input Expander with PSU) .......................................... 35 7.4 Connecting The PCX-RIX32-WE (Remote Wireless Expander) ................................................... 39 7.5 Connecting The PCX-ROX8R8T (Remote Output Expander) ...................................................... 41 7.6 Connecting The PCX-ROX16R+PSU Expander (Remote Output Expander with PSU) ..................... 43 8. The GPRS, LAN and PSTN Modems............................................................................................ 45 8.1 The PSTN Modem (Digi-1200).............................................................................................. 46 8.2 The GPRS Modem (DIGI-GPRS) ........................................................................................... 47 8.3 The LAN Modem (Digi-LAN) ................................................................................................. 47 8.4 Connecting to the Upload/Download Software ........................................................................ 48 9. EN 50131 Terminology ............................................................................................................ 50 10. Access Levels ....................................................................................................................... 50 11. Compliance ......................................................................................................................... 50 NOTES ..................................................................................................................................... 51
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PCX 46 App Installation Reference
1. System Overview The PCX 46 App is wired control panel that can have a maximum of 46 inputs. There are two versions available: PCX 46 App S = Small box (Security Grade 2), PCX 46 App L = Large box (Security Grade 3). They are both compatible with Two Way Enforcer wireless peripherals using the PCX-RIX32-WE. System Overview Areas: Independent areas Sub areas Inputs: Wired inputs Wireless inputs Maximum inputs
PCX 46 App S
PCX 46 App L 8 7
Additional Information
Each sub-area is created by a proximity reader
8 On board 32
Supports Double Pole (N/C), DEOL and 3EOL 32 = 1 x Wireless input expander: PCX-RIX8 46 = 4 x Wired/wireless input expanders: PCX-RIX8, PCXRIX8+, PCX-RIX8+PSU, PCX-RIX32-WE. 3 x Keypads/readers: PCX-LCD/EX, PCX-PROX/EXT, PCXPROX/INT
46
PGM Outputs: PCB ATE outputs
10
Maximum PGM outputs
69
User automation outputs
30
Codes: Wireless key fobs Maximum user codes Duress / guard codes Engineer codes Arming Devices Arming devices Communication Phone numbers Modems / Communication paths Formats for ARC Formats for User
1 Relay, 4 transistor (Inputs 7 & 8 may be used as outputs) Low power ATE outputs 69 = 3 x Outputs on the PCB 2 x Shared outputs: XPGM 1&2 (Inputs 7&8) 2 x Output expanders: PCX-ROX8R8T, PCX-ROX16R+PSU 4 x Wired input expanders: PCX-RIX8+, PCX-RIX8+PSU each have 4 outputs on board. 6 x Keypads or 1 x Keypad & 3 x Readers: 6 outputs 10 x ATE PGMs Allows users to activate these outputs via keypad (PCXLCD/EX), mobile app, or keyfob (KF4-WE)
5 (3 and 2)
32 100 + 1 Master 10 1
Using 1 x Wireless expander: PCX-RIX32-WE Including wireless keyfobs: KF4-WE
6 Maximum
PCX-LCD/EX, PCX-EXT-BK/W, PCX-PROX/INT
25 PSTN modem (DIGI-1200) GSM modem (DIGI-GSM) GPRS modem (DIGI-GPRS) LAN modem (DIGI-LAN) SIA Levels 1 & 3, CONTACT ID (Voice PSTN for future use) SIA IP, CONTACT ID IP (WiFi for future use) CONTACT ID SMS signals to a user's mobile phone. Also allows user remote control panel via SMS commands Using the upload/download software (UDL)
PSTN, GPRS, LAN, GSM PSTN or VOICE PSTN: GPRS or LAN or WiFi: GSM: SMS
Event Signaling UDL Yes Logs: Memory logs 1250 Memory type EEPROM Power Rating: PSU 1.5A 2.0A Battery type 3-6Ah 7-17Ah Dimensions and Compliance 250 x 297 x 390 x 305 x Dimensions: 82mm 100mm EN grading* Grade 2 Grade 3 Environment class II II
Power supply built onboard Recommended batteries PCB: 170 x 110 x 40mm
Default Codes: Master Manager Code: 1234 Engineer Code: 9999 *EN50131 compliance labeling should be removed if non-compliant configurations are used. NOTE: Technical functions for example fire, gas and flooding are not security graded as they are outside the scope of EN50131-1 and EN50131-3
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PCX 46 App Installation Reference 1.1 The Devices
All PCX peripherals; LCD keypads, readers, expanders etc. are connected via the D1-, D2+, D3 and D4 terminals. This is an example of what a typical PCX bus may look like. General Principles: NOTE 1: No alarm system cable should be run with other cables carrying AC or digital signals. NOTE 2: The cables should be protected by the use of grommets where appropriate. NOTE 3: For greater than 1000m range a standard isolated RS485 repeaters required. NOTE 4: There MUST be a ferrite bead fitted to one of the outgoing data lines and secured inside the PCX case itself. The Ferrite bead is supplied packaged with a cable-tie which must be used to secure it in the case and prevent it shorting any electrical contacts (Ferrite as shown). There must also be a ferrite bead fitted to the data wires of a PCX-EXT-BK/W (if connected). The Ferrite bead is supplied with the reader. NOTE 5: (IMPORTANT!) If an expansion module with a power supply on board is connected, the D2+ terminal MUST NOT be connected between the main bus and module.
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PCX 46 App Installation Reference 1.1.1 RS-485 Wiring
Cable type
Screened Cable
4 core alarm cable 6 core alarm cable doubling D1 (0v) and D2 (12v)
Use when bus located near 230VAC mains power line
Twisted pair
Bus range (m)
Wiring Format Daisy Chain Range
Star Range
No limit.
50m
300m 1000m 1000m
Daisy Chain Wiring Diagram Example #1
Daisy Chain Wiring Diagram Example #2
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PCX 46 App Installation Reference 1.2 PCX 46 App Input Mapping Overview: Input Numbers DEVICES PCX 46 App PCB PCX-RIX8 PCX-RIX8 PCX-RIX8 PCX-RIX8
/ / / /
PCX-RIX8+/ PCX-RIX8+/ PCX-RIX8+/ PCX-RIX8+/
PCX-RIX8+PSU PCX-RIX8+PSU PCX-RIX8+PSU PCX-RIX8+PSU
/PCX-RIX32-WE /PCX-RIX32-WE /PCX-RIX32-WE /PCX-RIX32-WE
PCX-LCD/EX PCX-LCD/EX / PCX-PROX/INT* PCX-LCD/EX / PCX-PROX/INT* Total
Address PCB
1-8
0 1 2 3
9-16 17-24 25-32 33-40
0 1 2
41-42 43-44 45-46 46
NOTE 1: 1 x PCX-RIX32-WE can be connected to the PCX 46 App. This expander allows 32 inputs which are separated into 4 addresses (each address enables 8 wireless inputs). It is possible to mix the wired and wireless remote expanders. For more information please see page: 39. *NOTE 2: If the PCX-PROX/INT (Internal Tag Reader) is programmed as an 'Arm/Disarm' device, 2 inputs are enabled. If the PCX-PROX/INT is programmed as 'Entry Control' or 'Access Control' only 1 input is enabled. 1.3 PCX 46 App Output Mapping DEVICES PCX 46 App PCB
Address PCB
Output Numbers 5 (2 shared)
Digi/ATE Outputs (using communication loom)
Loom
10
PCX-ROX8R8T / PCX-ROX16R+PSU PCX-ROX8R8T / PCX-ROX16R+PSU PCX-RIX8+/ PCX-RIX8+PSU PCX-RIX8+/ PCX-RIX8+PSU PCX-RIX8+/ PCX-RIX8+PSU PCX-RIX8+/ PCX-RIX8+PSU PCX-LCD/EX PCX-LCD/EX / PCX-PROX/INT / PCX-EXT-BK/W PCX-LCD/EX / PCX-PROX/INT / PCX-EXT-BK/W PCX-LCD/EX / PCX-PROX/INT / PCX-EXT-BK/W PCX-LCD/EX / PCX-PROX/INT / PCX-EXT-BK/W PCX-LCD/EX / PCX-PROX/INT / PCX-EXT-BK/W Total
0 1 0 1 2 3 0 1 2 3 4 5
1-16 17-32 1-4 1-4 1-4 1-4 1 1 1 1 1 1 69
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PCX 46 App Installation Reference
2. Out of the box 1. Unscrew and remove the cover of the PCX 46 App (Figure 1). The PCX 46 App Printed circuit board is located to the top right hand side. (Figure 2) 2. Install the supplied stand offs if needed before mounting the metal case to the wall (Figure 3).
Figure 1.
Figure 2.
Figure 3.
3. Connect any modems if required and any other devices (input expanders, output expanders etc.) before powering up the system. 4. Wire the telephone line if the DIGI-1200 modem (PSTN) is installed. See page 45. 5. Install the SIM card, connect the antenna and locate outside of the metal casing if the GPRS modem is used. See page 45. 6. Screw the back metal plate to the wall. 7. PCX 46 App Large Box: The tamper mechanism comes already fitted and will operate properly once the casing is fitted to the wall. If using the stand-offs, the following will need to be used for the rear tamper mechanism to work correctly.
8. PCX 46 App Small Box: The tamper mechanism comes already fitted.
9. Secure all the wires and close the enclosure making sure the tamper is operational 10. Turn on the power to the PCX 46 App. The keypad will show:
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PCX 46 App Installation Reference
3. The Printed Circuit Board
1: Case Tamper Hold-Off Jumper 2: PGM 1 (Relay output. See page: 16) 3: Speaker connection Connects a 16ohm speaker. See page: 16 4: External sounder connections Connects an external sounder. See page: 17. 5: Input connections 8 Fully programmable inputs. See page: 13. 6: Tamper Switch Optional tamper protection for the metal casing 7: Auxiliary 12V power 12V power supply 8: Inputs or Outputs Inputs 7 and 8 may be programmed as outputs if unused. See page: 16 9: Battery Connect ‘Kickstart’ switch To power-up and program from battery power (when there is no mains power available). 10: RS485 bus terminals Connects peripherals. See pages: 4 and 19 11: Battery connection: For battery power up. See page: 12
12: Earth connection Connects the earth 13: 17V connection Connects the AC transformer 17V supply 14: Battery Charge Capacity Jumper For battery power up. See page: 12 15: PSTN, GPRS & LAN Modems Connects PSTN, GPRS & LAN modems. See page: 45 onwards 16: RS232 Connection This connection is used for an RS232 lead that will connect to a PC to allow uploading and downloading of data using the InSite software (see page: 48) 17: Communication Outputs Connects the supplied communication loom to enable an additional 10 programmable outputs. These are low current and would normally be used when connecting a stand-alone communicator to the panel (see page: 11). 18: Bell Fuse
19: Auxiliary Fuse
20: Bus Fuse
21: Battery Fuse
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PCX 46 App Installation Reference 3.1 Technical Specification Programmable Outputs Power Rating Normal State Active State PGM 1 Relay, 3A, max 30V Changeover NC & NO Changeover NC & NO Speaker 16 ohms No tones Repeat RKP tones & internal sounder Strobe Output 500mA 12v 0v Bell Output 500mA 12v 0v XPGM 1 (Input 7) 50mA Floating 0v XPGM 2 (Input 8) 50mA Floating 0v ATE Outputs 2mA 5v 0v All outputs are programmed in "PROGRAM OUTPUTS?" in the Engineer menu. Input Resistance 1k / 1k DEOL Range 4k7 / 2k2 DEOL Range Normal 0k5 to 1k4 1k4 to 2k9 Burglary Alarm 1k5 to 5k9 4k2 to 7k8 Tamper <0k5 or <17k <1k4 or >22k All inputs are programmed in "PROGRAM INPUTS?" in the Engineer menu. Fuses Value Type Bell Fuse for bell terminals F800mA quick blow 250V Glass Aux Fuse for aux terminals F800mA quick blow 250V Glass RS485 Bus Fuse for bus terminals F800mA quick blow 250V Glass Battery Fuse for battery terminals T 1.5A anti-surge slow blow 250V Glass 230V Mains Fuse for mains terminals T500mA H anti-surge slow blow 250V Ceramic Panel Power Supply Output Output Voltage
Nominal 13.7V DC
Range 10-15V DC
Output Current PCX 46 APP S
1A Continuous
1.5A peak, during battery charging
Output Current PCX 46 APP L
1.5A Continuous
2.0A peak, during battery charging Power Supply Type A. Maximum output peak voltage: Max 100 mV SD Voltage which the deep discharge protection function will operate at: 10V Over Voltage Protection Trigger Voltage: 18V NOTE 1. PCX 46 APP power supplies are NOT designed for use with multiple batteries connected. NOTE 2. System load should not exceed the panel power supply output shown above, or the maximum load supportable by the battery for the specified backup time, as in the table shown below. NOTE 3. The power ratings are based on battery shown in table – but ANY battery capable of supporting the system load for the required time may be used without affecting these ratings. Panel Power Supply Input Nominal Range Mains Supply Voltage AC 230V AC at 50Hz -15% +10% Transformer Rating PCX 46 APP S
18VA
18V at 1.0A
Transformer Rating PCX 46 APP L
45VA Battery Charging Specification Float Voltage 13.8v DC Battery low voltage cut off 10.5v Recharge time <24 Hours
18.5V at 2.5A Control Panel Type Standby battery capacity current Standby battery capacity current
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300mA (3A to 6A) 700mA (7A to 17A)
PCX 46 App Installation Reference EN50131-6:2008 Rated Output In accordance with EN50131-6:2008, the PCX 46 APP standby times and effective output currents depend on the Security Grade of the system and how 230V mains missing fault is signalled to the Alarm Receiving Centre. Power supplies are rated in accordance with the requirements of EN50131-6, which are related to the maximum battery size that can be accommodated in the housing and vary according to the grade of the system in which they are installed, as per the following table: Electrical Capability Example Battery Model Yuasa NP7-12 Yuasa NP17-12
EN50131-6 Rating. Maximum Load Grade 2 0.5A 1.2A
PCX 46 APP PCB Current Consumption Quiescent 80mA User Code and Tag Guessing 4-digit codes 10,000 6-digit codes 100,000 Disallowed codes None All codes 1612
Environmental Operational Storage Humidity Dimensions
-10°C to +40°C, Certified -20°C to +60°C 75%
PCX 46 APP S
390 x 305 x 100mm Weight: 11.5kg inc battery 250 x 297 x 82mm Weight: 4.8kg inc battery
According to EN50131-3:2009 Annex B
PCX 46 APP Printed Circuit Board
170 x 90 x 30mm
According to spec of manufacturer of RFID components used
PCX 46 APP S = Grade 2. PCX 46 APP L = Grade 3
PCX 46 APP L
EN50131 Grading
The below table is specifies ATS (Alarm Transmission System) performance criteria in accordance with the requirements of EN50136-1-1. Notification Equipment Remotely powered external sounder Self-powered external sounder Main Communication Path (ATS) Second Communication Path (ATS)
Option A 2 Optional ATS 2 Optional
Grade 2 Criteria Option B Option C Optional Optional 1 Optional ATS 2 ATS 2 Optional ATS 1
Option D Optional Optional ATS 3 Optional
The use of the Digi Modem restricts the options up to 'Grade 2 Option B'. The use of the Digi GPRS or DIGI-LAN options 'Grade 2 Option A, B and D are supported'. 3.2 Important Installation Notes
Ensure wiring is done to the national wiring regulations in the country where the installation is taking place. In the UK, this is BS 7671 Requirements for electrical installations; IET Wiring Regulations (17th edition). If in doubt, consult a local qualified electrician.
Ensure that a readily accessible disconnect device incorporated in the premises installation wiring shall be provided external to the equipment with a contact separation of at least 3,0mm and connected as closely as possible to the supply. Example: Fused Spur Unit
When fixing external wires, ensure that means are provided in the installation to prevent the SELV (Safety Electrical Low Voltage) or signal circuits from coming into contact with live parts of the power supply circuit. Wires shall be fixed near their terminal blocks.
The end of stranded conductor shall not be consolidated by soft soldering at places where the conductor is subjected to contact pressure. Example: Must not solder ends of wires which are to be secured in detector and control panel terminal connectors.
On completion of wiring use tie-wraps to prevent any loose wires causing a safety hazard (material of cables tie shall be rated at least HB or better).
Cables ties and hoses shall be separate for power supply cable and SELV (Safety Electrical Low Voltage) wirings.
Size of protective bonding conductors: minimum section 1.5mm². Example: Electrical Earth wire connections. Page: 10
PCX 46 App Installation Reference 3.3 Communication Loom The ATE low power outputs are programmed in the engineer function: ‘Program Outputs->Endstation PGMs”. Purple (ATE Output 8: Mains Fail (0052)) Light Grey (ATE Output 10: Unused 0000)) White (ATE Output 9: Battery Fault (0053)) Black (ATE Output 7: Engineer Access (0059)) Brown (ATE Output 4: Final Arm Any (0022)) Red (0V) Orange (ATE Output 2: PA Device Any (0009)) Yellow (DATE Output 3: Burglary Any (0018)) Green (ATE Output 6: Bypass Rearm Any (0017)) Blue (ATE Output 1: Fire (0001)) Purple (ATE Output 5: Tamper Any (0007)) Light Grey (+12V) White (DO NOT USE) Black (Line Fault)
Normal Status: 5V Active Status: 0V Current: 2mA
The polarity of the ATE outputs can be inverted from the function: 'SYSTEM OPTIONS' -> ‘Options’ -> 'Invert ATE PGMs'
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PCX 46 App Installation Reference 3.4 Power and Battery Connections for the PCX 46 APP L
Panel Power Supply Input Mains Supply Voltage AC
Nominal 230V AC at 50Hz
Range -15% +10%
Transformer Rating PCX 46 APP L
45VA Nominal 13.7V DC
18.5V at 2.5A Range 10-15V DC
Panel Power Supply Output Output Voltage Output Current PCX 46 APP L
1.5A Continuous 2.0A peak, during battery charging Power Supply Type A. Battery Charging Specification Float Voltage 13.8v DC Control Panel Type Battery low voltage cut off 10.5v Standby battery capacity current 300mA (3Ah to 6Ah) Recharge time <24 Hours Standby battery capacity current 700mA (7Ah to 17Ah) Fuses Value Type 230V Mains Fuse for mains terminals T500mA H anti-surge slow blow 250V Ceramic
NOTE: The battery connect ‘kickstart’ button (see Item 9, page 8) is used to power-up the control panel when there is no mains supply present. For example: if you wish to program a panel that is being fitted in a new-build premises before the mains supply has been fully installed. To use it – Hold for 5 seconds and then release. IMPORTANT: Ensure that the battery Jumper is in the correct position for the capacity of battery that you have connected – otherwise the panel may under-charge a large battery or over-charge and damage a smaller battery. Page: 12
PCX 46 App Installation Reference 3.5 Power and Battery Connections for the PCX 46 APP S
Panel Power Supply Input Mains Supply Voltage AC
Nominal 230V AC at 50Hz
Range -15% +10%
Transformer Rating PCX 46 APP S
18VA Nominal 13.7V DC
18V at 1.0A Range 10-15V DC
Panel Power Supply Output Output Voltage Output Current PCX 46 APP S
1A Continuous 1.5A peak, during battery charging Power Supply Type A. Battery Charging Specification Float Voltage 13.8v DC Control Panel Type Battery low voltage cut off 10.5v Standby battery capacity current 300mA (3Ah to 6Ah) Recharge time <24 Hours Standby battery capacity current 700mA (7Ah to 17Ah) Fuses Value Type 230V Mains Fuse for mains terminals T500mA H anti-surge slow blow 250V Ceramic
NOTE: The battery connect ‘kickstart’ button (see Item 9, page 8) is used to power-up the control panel when there is no mains supply present. For example: if you wish to program a panel that is being fitted in a new-build premises before the mains supply has been fully installed. To use it – Hold for 5 seconds and then release. IMPORTANT: Ensure that the battery Jumper is in the correct position for the capacity of battery that you have connected – otherwise the panel may under-charge a large battery or over-charge and damage a smaller battery.
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PCX 46 App Installation Reference
4. Input Connections
NOTE: If ‘Normally Closed’ (double pole) wiring is selected, the Diagnostics on the keypad will show "4K Alarm and 2K2 Tamper". Input Resistance 1k / 1k DEOL Range Normal 0k5 to 1k4 Burglary Alarm 1k5 to 5k9 Fault 6k to 8k1 Masking (6k8) 8k2 to 17k Tamper <0k5 or <17k All inputs are programmed in "PROGRAM INPUTS"
4k7 / 2k2 DEOL Range 1k4 to 2k9 4k2 to 7k8 8k to 11k3 11k6 to 22k <1k4 or >22k in the Engineer menu.
4.1 Normally Closed Input Wiring
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4k7 / 4k7 DEOL Range 3k7 to 8k3 8k4 to 10k2 10k3 to 14k9 15k to 22k <3k7 or >23k
PCX 46 App Installation Reference 4.2 Grade 2 DEOL (Double End of Line) Input Wiring
Input Resistance Normal Burglary Alarm Tamper
1k / 1k DEOL Range 0k5 to 1k4 1k5 to 5k9 <0k5 or <17k
4k7 / 2k2 DEOL Range 1k4 to 2k9 4k2 to 7k8 <1k4 or >22k
4k7 / 4k7 DEOL Range 3k7 to 8k3 8k4 to 10k2 <3k7 or >23k
4k7 / 2k2 DEOL Range 1k4 to 2k9 4k2 to 7k8 8k to 11k3 11k6 to 22k <1k4 or >22k in the Engineer menu.
4k7 / 4k7 DEOL Range 3k7 to 8k3 8k4 to 10k2 10k3 to 14k9 15k to 22k <3k7 or >23k
4.3 Grade 3 Mask/Fault Input Wiring
Input Resistance 1k / 1k DEOL Range Normal 0k5 to 1k4 Burglary Alarm 1k5 to 5k9 Fault 6k to 8k1 Masking (6k8) 8k2 to 17k Tamper <0k5 or <17k All inputs are programmed in "PROGRAM INPUTS"
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PCX 46 App Installation Reference
5. Output (PGM) Connections
Normal State: 12V Active State: 0V Current: 100mA
5.1 XPGM Connections If Inputs 7 and 8 are programmed as ‘unused’, these inputs can be used as 2 further outputs (known as XPGM1 and XPGM2 which can be programmed in ‘PROGRAM OUTPUTS’).
Normal State: Floating Active State: 0V Current: 50mA switched to 0V
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PCX 46 App Installation Reference
6. External Sounder Connections 6.1 Grade 3 External Sounder Wiring Pyronix Grade 3 External Sounders:
Deltabell Plus,
Deltabell X,
Invincibell Plus,
Invincibell X
6.2 Grade 2 External Sounder Wiring with a Grade 3 Bell Pyronix Grade 3 External Sounders:
Deltabell Plus,
Deltabell X,
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Invincibell Plus,
Invincibell X
PCX 46 App Installation Reference 6.3 Grade 2 External Sounder Wiring Pyronix Grade 2 External Sounders:
Deltabell E,
Invincibell E
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PCX 46 App Installation Reference
7. Connecting the PCX Peripherals 7.1 Connecting The PCX-LCD Keypad (PCX-LCD/EX) The PCX LCD keypad is used for programming and user operation. The PCX 46 APP can have up to 6 x PCX-LCD/EX keypads installed. NOTE: See the keypad installation manual for the LED and button explanations. NOTE: The total number of keypads and readers that can be installed on the PCX 46 APP is 6.
7.1.1 Technical Specification PCX-LCD/EX (LCD Keypad) Supply Voltage: Current Consumption: Inputs 1 & 2 Input EOL Resistor Values Normal Burglary Alarm Fault Masking (6k8) PGM: PGM Normal State: PGM Active State: Dimensions: EN50131 Certified: Colour and Casing: Indication: NOTE: Temperature
9-15V DC <50mA Programmable, DEOL, SEOL, 3 Resistor 1k / 1k DEOL Range 4k7 / 2k2 DEOL Range 4k7 / 4k7 DEOL Range 0k5 to 1k4 1k4 to 2k9 3k7 to 8k3 1k5 to 5k9 4k2 to 7k8 8k4 to 10k2 6k to 8k1 8k to 11k3 10k3 to 14k9 8k2 to 17k 11k6 to 22k 15k to 22k 100mA Floating 0V 144 x 99 x 34mm Grade 3 White 3mm ABS LEDs (OK, Fault, Alarm, Disarmed, Tamper) The LCD display may not function correctly at temperatures below +2ºC but this will not affect the system operation. Storage: -10°C to +40°C Certified: -10°C to +40°C Nominal: -10°C to +40°C
Front and rear tamper protected
7.1.2 Addressing The PCX LCD Keypad (From the Keypad) Addressing Hold the d key for more than 5 seconds.
'SECURITY CODE' will be displayed. Enter '2000'
The default address given is '00'.
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PCX 46 App Installation Reference Enter the required Address [0-6] and press t Press a to exit. You must now address is from the menu "INSTALL KEYPADS/READERS". 7.1.3 Adding The PCX LCD Keypad (From the Engineer Menu) Enter the engineers menu and scroll to 'INSTALL KEYPADS/READERS' and press t. Please see the Programming Manual for more information. 7.1.4 Connecting The PCX LCD Keypad Inputs (Grade 3)
The same connections are used when wiring the TMD or XD Grade 3 detectors Input Resistance Normal Burglary Alarm Fault Masking (6k8) Tamper
1k / 1k DEOL Range 0k5 to 1k4 1k5 to 5k9 6k to 8k1 8k2 to 17k <0k5 or >17K
4k7 / 2k2 DEOL Range 1k4 to 2k9 4k2 to 7k8 8k to 11k3 11k6 to 22k <1k4 or >22k
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4k7 / 4k7 DEOL Range 3k7 to 8k3 8k4 to 10k2 10k3 to 14k9 15k to 22k <3k7 or >23k
PCX 46 App Installation Reference 7.1.5 Connecting The PCX LCD Keypad Inputs (Grade 2)
Input Resistance Normal Burglary Alarm Fault Masking (6k8) Tamper
1k / 1k DEOL Range 0k5 to 1k4 1k5 to 5k9 6k to 8k1 8k2 to 17k <0k5 or >17K
4k7 / 2k2 DEOL Range 1k4 to 2k9 4k2 to 7k8 8k to 11k3 11k6 to 22k <1k4 or >22k
4k7 / 4k7 DEOL Range 3k7 to 8k3 8k4 to 10k2 10k3 to 14k9 15k to 22k <3k7 or >23k
7.1.6 Connecting The Outputs
Normal State: 12V Active State: 0V Current : 100mA
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PCX 46 App Installation Reference 7.2 Connecting The Internal Tag Reader (PCX-PROX/INT) The Internal Tag Reader can have 2 inputs connected. It can be used as an arm, disarm, entry control or an access control device. NOTE: See the reader installation manual for the LED and button explanations. NOTE: The total number of readers that can be installed on the PCX 46 APP is 5. The readers are installed on the same bus as the keypads.
7.2.1 Technical Specification PCX-PROX/INT (Internal Tag Reader) Input Voltage: 12VDC (9-15V DC range) Supply Current: <30mA Quiescent. <90mA Maximum Inputs: Programmable. 2 inputs; DEOL Alarm=4K7 / Tamper=2K2 Input EOL Fixed Resistor Values: Normal: 1k4 to 2k9 Burglary Alarm:4k2 to 7k8 Tamper: <1k4 or >22k Shared Outputs: Switched negative 150mA (Max) Colour and Casing: White 3mm ABS Indication: LEDs (Alert, Alarm, Fault, Tamper, Disarmed) Temperature: Storage:-20°C to 60°C Certified: -10°C to 40°C Nominal: -20°C to 60°C Dimensions (H x W x D): 97 x 40 x 23mm Front and rear tamper protected NOTE: If the PCX-PROX/INT (Internal Tag Reader) is programmed as an 'Arm/Disarm' device, 2 inputs are enabled. If the PCX-PROX/INT is programmed as 'Entry Control' or 'Access Control' only 1 input is enabled. 7.2.2 Addressing The Internal Tag Reader (From the Reader)
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PCX 46 App Installation Reference 7.2.3 Adding The Internal Tag Reader (From the Engineer Menu) Enter the engineers menu and scroll to 'INSTALL KEYPADS/READERS' and press t. Please see the Programming Manual for more information. 7.2.4 Connecting The Internal Tag Reader Inputs
Input Resistance: 4k7 / 2k2 DEOL Range Normal: 1k4 to 2k9 Burglary Alarm:4k2 to 7k8 Tamper: <1k4 or >22k
7.2.5
NOTE: The resistance values are fixed to 4K7 Alarm and 2K2 Tamper in the PCX-PROX/INT Reader
Using the Internal Tag Reader as Access Control/Entry Control
Normal State: 12V Active State: 0V Current : 150mA
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PCX 46 App Installation Reference 7.3 Connecting The External Proximity Reader (PCX-EXT-BK) The External Proximity Reader can be used as either an arm, disarm, entry control or an access control device. NOTE: See the reader installation manual for the LED and button explanations. NOTE: The total number of readers that can be installed on the PCX 46 APP is 5. The readers are installed on the same bus as the keypads. 7.3.1 Technical Specification PCX-EXT-BK / W (External Tag Reader) Supply voltage: 9-15VDC Current consumption: Max 22mA Input status when reader is Arm/Disarm or Sub-Area Control: Input: Programmable. DEOL Input EOL fixed resistor Alarm=4K7 / Tamper=2K2 value: Normal: 1k4 to 2k9 Burglary Alarm:4k2 to 7k8 Tamper: <1k4 or >22k Input status when reader is used as Access or Door Entry Control: Input 1: Programmable Input Function: Door monitor feature. Door opening time limit is programmable from the Engineer Menu Input 2: Not programmable Note: Access control falls outside the scope of EN 50131 Output 1: Not programmable. Activates the Door Lock Relay Output 2: Not programmable. Door monitor alarm activation (forced or open for longer than programmed time). Output 1/2 Normal state: Floating Output 1/2 Active state: 0V Colour and Casing: 3mm ABS (Black: PCX-EXT-BK, White: PCX-EXT-W) Potted Type B Temperatures: Storage: -10°C to 50°C Certified: -25°C to 60°C Nominal: -25°C to 60°C Dimensions (H x W x D): 85 x 85 x 21mm IP65 Rated. If the control panel fails to arm, this is indicated by a broken tone on the external proximity reader and the red LED will not illuminate. If this occurs, please check the information at the nearest keypad.
7.3.2 Addressing the External Tag Reader (From the Reader)
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PCX 46 App Installation Reference 7.3.3 Adding the External Tag Reader (From the Engineer Menu) Enter the engineers menu and scroll to 'INSTALL KEYPADS/READERS' and press t. Please see the Programming Manual for more information. 7.3.4 Connecting a Mag Lock and a Request to Exit Button to the External Tag Reader The diagram show the relay mag lock control switching positive and shows a normally open request to exit button, and takes “0V” from the control panel.
7.3.5 Connecting Door Monitoring and Door Alarm Monitoring to the External Tag Reader Connecting Door Monitoring: Use the white and grey wire. The door monitor input needs to be programmed as the first input number of the reader address (programmed as “Entry Delay”). If the door contact is forced open without presenting a valid tag or pressing the push to exit button, then the panel will go into an alarm. NOTE: The DEOL values must be 4K7, 2K2 as shown. This does not affect the control panel DEOL values. Connecting Door Alarm Monitoring: Use the purple wire. When the door monitor exceeds the door open time or if the door is forced open then the alarm PGM will generate an alarm. The input at the control panel should be programmed as “24 Hour” and the attribute programmed as “Normally Open”. Please see the next page for the wiring diagrams.
Input Resistance: 4k7 / 2k2 DEOL Range Normal: 1k4 to 2k9 Burglary Alarm: 4k2 to 7k8 Tamper: <1k4 or >22k
NOTE: The resistance values are fixed to 4K7 Alarm and 2K2 Tamper in the PCX-EXT-BK/W Reader.
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PCX 46 App Installation Reference 7.3.6 Using the External Tag Reader for Arming and Entry Control
7.3.7 Using the Request to Exit button
7.3.8 Using the External Tag Reader Disarming
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PCX 46 App Installation Reference 7.1 Connecting The PCX-RIX8i (Remote Input Expander with Inertia) 7.1.1 The PCX-RIX8i Expander PCX-RIX8i The PCX-RIX8i is an input expander that supports 8 normal or inertia inputs (also known as fast inputs). It also supports NC (normally closed), DEOL and SEOL input wiring. The PCX 46 will support up to 4 x Remote Inputs Expanders.
7.1.2 PCX-RIX8i Technical Specification PCX-RIX8i (Inertia Input Expander) Input Voltage 9-15V Current Consumption 45mA Inputs DEOL, NC, Inertia (Fast inputs) Input EOL Fixed Resistor 1k / 1k DEOL Range Values Normal: 0k5 to 1k4 Burglary Alarm: 1k5 to 5k9 Tamper: <0k5 or >17K Dimensions (plastic box) 173 x 125 x 32mm Dimensions (PCB) 128 x 87 x 16mm Colour and Casing White 3mm ABS with clear polycarbonate window Grade 2 Indication LEDs (Power, OK and Fault) Temperature Storage: -20°C to +60°C Certified: -10°C to +40°C Nominal: -10°C to +50°C Front and rear tamper protected NOTE: This product is only compliant to Security Grade 2 7.1.3 Addressing The PCX-RIX8i (From The Expander) Input Resistance: 1k / 1k DEOL Range Normal: 0k5 to 1k4 Burglary Alarm: 1k5 to 5k9 Tamper: <0k5 or >17k
NOTE: The resistance values are fixed to 1K Alarm and 1K Tamper on the PCX-RIX8i expander.
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PCX 46 App Installation Reference 7.1.4 Addressing the PCX-RIX8i (From The Expander)
7.1.5 Adding the PCX-RIX8i (From the Engineer Menu) Enter the Engineers menu and scroll to 'INSTALL RIX' and press t. Please see the Programming Manual for more information. 7.1.6 Wiring Inputs on the PCX-RIX8i (Normally Closed)
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PCX 46 App Installation Reference 7.1.7 Wiring Inputs on the PCX-RIX8i (DEOL: Grade 2)
Input Resistance: 1k / 1k DEOL Range Normal: 0k5 to 1k4 Burglary Alarm:1k5 to 5k9 Tamper: <0k5 or <17k
NOTE: The resistance values are fixed to 1K Alarm and 1K Tamper on the PCX-RIX8i expander.
7.1.8 Wiring Fast Inputs on the PCX-RIX8i (Normally Closed) Connecting a Roller Shutter
Connecting a Shock Sensor
NOTE: The programming menu "PROGRAM INPUTS" has a sub-menu called 'Input Attributes'. This has an option to enable or disable Inertia inputs.
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PCX 46 App Installation Reference 7.1.9 Wiring Fast Inputs on the PCX-RIX8i (DEOL: Grade 2) Connecting a Roller Shutter
Input Resistance: 1k / 1k DEOL Range Normal: 0k5 to 1k4 Burglary Alarm: 1k5 to 5k9 Tamper: <0k5 or >17k
Connecting a Shock Sensor
NOTE: These resistances are fixed to 1K Alarm and 1K Tamper and cannot change. NOTE: The programming menu "PROGRAM INPUTS" has a submenu called 'Input Attributes'. This has an option to enable or disable Inertia inputs.
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PCX 46 App Installation Reference 7.2 Connecting The PCX-RIX8+ (Remote Input Expander with 4 PGMs) PCX-RIX8+ The PCX-RIX8+ is an input expander that supports 8 inputs (not inertia). It also supports normally closed (double pole), DEOL and SEOL input wiring. There are 4 programmable PGMs. The PCX 46 will support up to 4 x Remote Input Expanders.
7.2.1 PCX-RIX8+ Technical Specification PCX-RIX8+ (Input Expander) Input Voltage 9-15V Current Consumption 30mA Inputs Programmable DEOL, NC, 3 Resistor (Grade 3) Input EOL Resistor 1k / 1k DEOL Range 4k7 / 2k2 DEOL Range Values Normal Burglary Alarm Fault Masking (6k8)
0k5 to 1k4 1k5 to 5k9 6k to 8k1 8k2 to 17k
1k4 to 2k9 4k2 to 7k8 8k to 11k3 11k6 to 22k
PGM1 - PGM4 PGM1 - PGM4 PGM1 - PGM4 Dimensions (plastic box) Dimensions (PCB) Colour and Casing Indication Temperature
100mA each Normal state: 12V Active state: 0V 173 x 125 x 32mm
4k7 / 4k7 DEOL Range 3k7 to 8k3 8k4 to 10k2 10k3 to 14k9 15k to 22k
128 x 87 x 16mm White 3mm ABS with clear polycarbonate window LEDs (Power, OK and Fault) Storage: -20°C to +60°C Certified: -10°C to +40°C Nominal: -10°C to +50°C Front and rear tamper protected
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PCX 46 App Installation Reference 7.2.2 PCX-RIX8+ Input Configuration Input Resistance Normal Burglary Alarm Fault Masking (6k8) Tamper
1k / 1k DEOL Range 0k5 to 1k4 1k5 to 5k9 6k to 8k1 8k2 to 17k <0k5 or >17K
4k7 / 2k2 DEOL Range 1k4 to 2k9 4k2 to 7k8 8k to 11k3 11k6 to 22k <1k4 or >22k
4k7 / 4k7 DEOL Range 3k7 to 8k3 8k4 to 10k2 10k3 to 14k9 15k to 22k <3k7 or >23k
7.2.3 Addressing the PCX-RIX8+
7.2.4 Adding the PCX-RIX8+ (From the Engineer Menu) Enter the engineers menu and scroll to 'INSTALL RIX' and press t. Please see the Programming Manual for more information.
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PCX 46 App Installation Reference 7.2.5 Wiring Inputs on the PCX-RIX8+ (Normally Closed)
Input Resistance Normal Burglary Alarm Tamper All inputs are programmed
1k / 1k DEOL Range 4k7 / 2k2 DEOL Range 0k5 to 1k4 1k4 to 2k9 1k5 to 5k9 4k2 to 7k8 <0k5 or >17K <1k4 or >22k in "PROGRAM INPUTS" in the Engineer menu.
4k7 / 4k7 DEOL Range 3k7 to 8k3 8k4 to 10k2 <3k7 or >23k
7.2.6 Wiring Inputs on the PCX-RIX8+ (DEOL - Grade 2)
Input Resistance Normal Burglary Alarm Tamper All inputs are programmed
1k / 1k DEOL Range 4k7 / 2k2 DEOL Range 0k5 to 1k4 1k4 to 2k9 1k5 to 5k9 4k2 to 7k8 <0k5 or <17k <1k4 or >22k in "PROGRAM INPUTS" in the Engineer menu.
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4k7 / 4k7 DEOL Range 3k7 to 8k3 8k4 to 10k2 <3k7 or >23k
PCX 46 App Installation Reference 7.2.7 Wiring Inputs on the PCX-RIX8+ (DEOL - Grade 3)
Input Resistance Normal Burglary Alarm Fault Masking (6k8) Tamper All inputs are programmed
1k / 1k DEOL Range 4k7 / 2k2 DEOL Range 0k5 to 1k4 1k4 to 2k9 1k5 to 5k9 4k2 to 7k8 6k to 8k1 8k to 11k3 8k2 to 17k 11k6 to 22k <0k5 or <17k <1k4 or >22k in "PROGRAM INPUTS" in the Engineer menu.
4k7 / 4k7 DEOL Range 3k7 to 8k3 8k4 to 10k2 10k3 to 14k9 15k to 22k <3k7 or >23k
7.2.8 Output Wiring on the PCX-RIX8+
Normal State: 12V Active State: 0V Current: 100mA
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PCX 46 App Installation Reference 7.3 Connecting The PCX-RIX8+PSU (Remote Input Expander with PSU) PCX-RIX8+PSU The PCX-RIX8+ is an input expander that supports 8 inputs (not inertia) and has a 2.5A power supply. It supports normally closed (N/C), DEOL and 3EOL input wiring. The PCX 46 will support up to 4 x Remote Input Expanders. NOTE: The D2+ terminal should not be connected.
7.3.1 PCX-RIX8+PSU Technical Specification PCX-RIX8+PSU (Input Expander with Power Supply) Input Voltage 9-15V Current Consumption 65mA Inputs Programmable DEOL, N/C, 3 Resistor (Grade 3) 1k / 1k DEOL Range 4k7 / 2k2 DEOL Range Input EOL Resistor Values 1k4 to 2k9 4k2 to 7k8 8k to 11k3 11k6 to 22k
4k7 / 4k7 DEOL Range 3k7 to 8k3 8k4 to 10k2 10k3 to 14k9 15k to 22k
Normal Burglary Alarm Fault Masking (6k8)
0k5 to 1k4 1k5 to 5k9 6k to 8k1 8k2 to 17k
PGM1 - PGM4 PGM1 - PGM4 PGM1 - PGM4 Power Supply Rating Transformer Rating Dimensions (metal box) Dimensions (PCB) Colour and Casing Indication Temperature
100mA each Normal state: 12V Active state: 0V 2.0A continued and 2.5A in peak when charging battery 44VA 390 x 305 x 100mm 215 x 125 x 65mm White metal casing LEDs (Power, RS485 In, A-Fault, RS485 Out, P-Fault) Storage: -20°C to +60°C Certified: -10°C to +40°C Nominal: -10°C to +50°C
EN50131 Certified Grade 3 Front and rear tamper protected with one tamper switch PD6662:2010 Installations – Back up battery time = 12hrs providing that a mains fail signal is reported to the ARC. A 17Ah battery, will support a maximum load of 1350mA for a period of 12 hours. EN50131-1:2006+A1:2009 Installations - Back up battery time = 30hrs providing that a mains fail signal is reported to the ARC. A 17Ah battery, will support a maximum load of 497mA for a period of 30 hours. Installations which are not supported by an ARC mains fail reported signal = 60 hours. A 17Ah battery, will support a maximum load of 248mA for a period of 60 hours.
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PCX 46 App Installation Reference 7.3.2 PCX-RIX8+PSU Input Configuration
Input Resistance Normal Burglary Alarm Fault Masking (6k8) Tamper All inputs are programmed
1k / 1k DEOL Range 4k7 / 2k2 DEOL Range 0k5 to 1k4 1k4 to 2k9 1k5 to 5k9 4k2 to 7k8 6k to 8k1 8k to 11k3 8k2 to 17k 11k6 to 22k <0k5 or >17K <1k4 or >22k in "PROGRAM INPUTS" in the Engineer menu.
4k7 / 4k7 DEOL Range 3k7 to 8k3 8k4 to 10k2 10k3 to 14k9 15k to 22k <3k7 or >23k
7.3.3 Addressing the PCX-RIX8+PSU
7.3.4 Adding the PCX-RIX8+PSU (From the Engineer Menu) Enter the Engineers menu and scroll to 'INSTALL RIX' and press t. Please see the Programming Manual for more information.
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PCX 46 App Installation Reference 7.3.5 Wiring Inputs on the PCX-RIX8+PSU (Normally Closed)
Input Resistance Normal Burglary Alarm Tamper All inputs are programmed
1k / 1k DEOL Range 4k7 / 2k2 DEOL Range 0k5 to 1k4 1k4 to 2k9 1k5 to 5k9 4k2 to 7k8 <0k5 or >17K <1k4 or >22k in "PROGRAM INPUTS" in the Engineer menu.
4k7 / 4k7 DEOL Range 3k7 to 8k3 8k4 to 10k2 <3k7 or >23k
7.3.6 Wiring Inputs on the PCX-RIX8+PSU (DEOL: Grade 2)
Input Resistance Normal Burglary Alarm Tamper All inputs are programmed
1k / 1k DEOL Range 4k7 / 2k2 DEOL Range 0k5 to 1k4 1k4 to 2k9 1k5 to 5k9 4k2 to 7k8 <0k5 or >17K <1k4 or >22k in "PROGRAM INPUTS" in the Engineer menu.
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4k7 / 4k7 DEOL Range 3k7 to 8k3 8k4 to 10k2 <3k7 or >23k
PCX 46 App Installation Reference 7.3.7 Wiring Inputs on the PCX-RIX8+PSU (DEOL: Grade 3)
Input Resistance Normal Burglary Alarm Fault Masking (6k8) Tamper All inputs are programmed
1k / 1k DEOL Range 4k7 / 2k2 DEOL Range 0k5 to 1k4 1k4 to 2k9 1k5 to 5k9 4k2 to 7k8 6k to 8k1 8k to 11k3 8k2 to 17k 11k6 to 22k <0k5 or >17K <1k4 or >22k in "PROGRAM INPUTS" in the Engineer menu.
4k7 / 4k7 DEOL Range 3k7 to 8k3 8k4 to 10k2 10k3 to 14k9 15k to 22k <3k7 or >23k
7.3.8 Output Wiring on the PCX-RIX8+PSU
Normal State: 12V Active State: 0V Current : 100mA
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PCX 46 App Installation Reference 7.4 Connecting The PCX-RIX32-WE (Remote Wireless Expander) PCX-RIX32-WE The PCX-RIX32-WE is a input expander that supports Two Way wireless Enforcer technology. It will allow 32 wireless inputs, 32 wireless keyfobs and 2 wireless bells to be learnt and programmed on the PCX 46 APP system. The PCX 46 APP will support only 1 x PCX-RIX32-WE.
7.4.1 PCX-RIX32-WE Technical Specification PCX-RIX32-WE (Two Way Wireless Input Expander) Input Voltage 9-14V Current Consumption 60mA quiescent 115mA during transmission Radio Frequency 868MHz FM Transceiver Narrow Band. Range: 1.6km Dimensions (metal box) 173 x 125 x 32mm Colour and Casing White plastic casing Indication LEDs (Power and Data) Temperature Operational: -10°C to +50°C Certified: -10°C to +40°C Storage: -40°C to +80°C Humidity 85% @ 25°C Weight 0.24kg 7.4.2 Addressing the PCX-RIX32-WE (From the Expander)
The PCX 46 APP will support both wired and wireless expanders on the same bus. Wireless sounders and keyfobs must be learned to Address 0. NOTE: Please make sure that you address the PCX-RIX32-WE while the tamper switch is open. The address will then be assigned when the tamper is closed.
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PCX 46 App Installation Reference Addressing Example: Having 32 wireless inputs on the PCX 46 APP
PCX-RIX32-WE: DEVICE A This expander will learn all 32 wireless keyfobs and 2 wireless bells.
Address 0 = 8 wireless inputs (Inputs 9-16)
Address 1 = 8 wireless inputs (Inputs 17-24)
Address 2 = 8 wireless inputs (Inputs 25-32)
Address 3 = 8 wireless inputs (Inputs 33-40)
Wired expanders may also be used in conjunction with wireless expanders. 7.4.3 Adding the PCX-RIX32-WE (From the Engineer Menu) Enter the engineers menu and scroll to 'INSTALL RIXs?' and press t. Please see the Programming Manuals for more information. 7.4.4 Learning Wireless Devices All wireless devices are learnt in the Engineer function ‘LEARN WIRELESS DEVICES?'. Please see the programming manuals (for inputs and bells) and user manual (keyfobs) for more information
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PCX 46 App Installation Reference 7.5 Connecting The PCX-ROX8R8T (Remote Output Expander) PCX-ROX8R8T The PCX-ROX8R8T is an output expander that supports 8 way relays and 8 transistor outputs. The PCX 46 APP will support up to 2 x Remote Output Expanders.
7.5.1 PCX-ROX8R8T Technical Specification PCX-ROX8R8T (Output expander with 16 PGMs) Supply Voltage 9-15V DC Current Consumption 25mA, Max 300mA when all outputs are active PGM1 to PGM16 Programmable PGM1 to PGM8 Type Relay, 3A, max 30V PGM1 to PGM8 Normal State Changeover NC & NO PGM1 to PGM4 Active State Changeover NC & NO PGM9 to PGM16 Type Open Collector PGM9 to PGM16 Normal State Floating PGM9 to PGM16 Active State 0V Dimensions Plastic Box 173 x 125 x 32mm Dimensions PCB 135 x 90 x 15mm EN50131 Certified Grade 3 7.5.2 Addressing The PCX-ROX8R8T (From the Expander)
7.5.3 Adding The PCX-ROX8R8T (From the Engineer Menu) Enter the engineers menu and scroll to 'PROGRAM OUTPUTS' and then 'O/P Module O/Ps?' and press t. Please see the Programming Manuals for more information.
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PCX 46 App Installation Reference 7.5.4 PCX-ROX8R8T Output Connections
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PCX 46 App Installation Reference 7.6 Connecting The PCX-ROX16R+PSU Expander (Remote Output Expander with PSU) PCX-ROX16R+PSU The PCX-ROX16R+PSU is an output expander that supports 16 way relays and has a 2.5A power supply. The PCX 46 APP will support up to x Remote Output Expanders.
2
NOTE: The D2+ terminal MUST not be connected.
7.6.1 PCX-ROX16R+PSU Technical Specification PCX-ROX16R/PSU (Output expander with 16 PGMs and Power Supply) Supply Voltage 9-15V DC Current Consumption 25mA, Max 340mA when all outputs are active PGM1 to PGM16 Programmable PGM1 to PGM16 Type Relay, 3A, max 30V PGM1 to PGM16 Normal State Changeover NC & NO PGM1 to PGM16 Active State Changeover NC & NO Power Supply Rating 2.0A Continued and 2.5A in peak when charging battery Transformer Rating 44VA Dimensions Metal Box 390 x 205 x 100mm Dimensions PCB 215 x 125 x 65mm Front and rear tamper protected with one tamper switch Front and rear tamper protected with one tamper switch A 17Ah battery, will support a maximum load of 1350mA for a period of 12 hours. EN50131-1:2006+A1:2009 Installations - Back up battery time = 30hrs providing that a mains fail signal is reported to the ARC. A 17Ah battery, will support a maximum load of 497mA for a period of 30 hours. Installations which are not supported by an ARC mains fail reported signal = 60 hours. A 17Ah battery, will support a maximum load of 248mA for a period of 60 hours. EN50131 Certified Grade 3 7.6.2 Addressing The PCX-ROX16R+PSU (From the Expander)
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PCX 46 App Installation Reference 7.6.3 Adding The PCX-ROX16R+PSU (From the Engineer Menu) Enter the engineers menu and scroll to 'PROGRAM OUTPUTS' and then 'O/P Module O/Ps?' and press t. Please see the Programming Manuals for more information. 7.6.4 PCX-ROX16R+PSU Connections
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PCX 46 App Installation Reference
8. The GPRS, LAN and PSTN Modems Connecting the modems in the large box
Connecting the modems in the small box
GPRS or LAN Modem
GPRS or LAN Modem
PSTN Modem
PSTN Modem
The PSTN modem should be located underneath the PCX 46 APP PCB and the GPRS or LAN modems should be located to the left of the PCX 46 APP PCB.
The PSTN modem should be located at the bottom (closest to the base) and the GPRS or LAN modems should be located at the top.
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PCX 46 App Installation Reference Connecting the modems to the control panel
8.1 The PSTN Modem (Digi-1200) The PSTN DIGI-1200 card is a fast modem and enables communication via PSTN line using Contact ID and SIA Level 1/ Level 3 as well as remote uploading/ downloading. A = Telephone line output for connection to analogue PSTN telephone line B = Telephone line output for connection to analogue PSTN telephone line A-1 = Telephone line output for connection to internal telecom equipment B-1 = Telephone line output for connection to internal telecom equipment Before making these connections, all power must be disconnected from the system. NOTE: The ground terminal should ALWAYS be connected to earth in order to increase the effectiveness of the transient voltage protection on the unit. IMPORTANT NOTE: POWER DOWN THE PCX 46 BEFORE DISCONNECTING THE MODEM.
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PCX 46 App Installation Reference 8.2 The GPRS Modem (DIGI-GPRS) The GPRS modem card (DIGI-GPRS) fits inside the PCX 46 APP. Besides communications with the PyronixCloud and HomeControl+ App, it has the following operations: Send Alarms to the ARC: With the DIGI-GPRS it is possible to send alarm events the monitoring station via Contact ID IP an SIA IP protocols. Send SMS Alarms to the user: With DIGI-GPRS it is possible to send SMS alarm messages to the user. Programming the panel remotely via the GPRS network: With the DIGI-GPRS is also possible to program the PCX 46 APP remotely. In order to be able to use this feature it is necessary that the CSD data channel for the SIM card used in the modem is activated. We recommend consulting with the GPRS service providers for the availability of the CSD services on their networks. Fault Detection Minimum time for the detection of a GPRS fault signal is 2 minutes, 30 seconds. GPRS Status LEDs Antenna The supplied antenna will need to be connected to the PCX 46 APP GPRS and placed in a suitable area where the signal strength is to its maximum.
IMPORTANT NOTE: REMOVE THE POWER SUPPLY OF THE DIGI-GPRS MODEM FROM PANEL WHEN INSTALLING OR CHANGING THE SIM. NOTE: CHECK THE SIM CARD CREDIT REGULARLY.
8.3 The LAN Modem (Digi-LAN) The LAN modem card (DIGI-LAN) fits inside the PCX 46 APP. It allows communications with the PyronixCloud and HomeControl+ App via a standard Ethernet internet connection cable and also has the following features: Send Alarms to the ARC: With the DIGI-LAN it is possible to send alarm events to the monitoring station via Contact ID IP and SIA IP protocols. Programming the panel remotely via secure network connection: With the DIGI-LAN is also possible to program the PCX 46 APP remotely via a secure internet connection and use of the Insite UDL software. Status LEDs The Digi-LAN features the industry standard Ethernet /LAN cable connection status and activity LEDs. Micro SD slot (for future features in development)
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PCX 46 App Installation Reference 8.4 Connecting to the Upload/Download Software The PCX 46 APP control panel can be programmed by the LCD menu or the UDL InSite Software provided free of charge. It can be downloaded from http://www.pyronix.com/pyronix-downloads.php. The connection between control panel and UDL software can be done in the following ways:
8.4.1 Serial Connection (RS232) 1. Enter the Engineer menu (code 9999) 2. Scroll the menu (x button) until the “Options Up/Downloading” 3. Choose RS-232 in the “Download by” option – Press t 4. Now on the ‘UDL Password’ screen – DO NOT USE – leave blank and Press t 5. Now on the ‘Site Name’ screen – this is optional – if you enter a site name, make sure that you take a note of it for use later in the Insite software – or leave blank – then press t 6. Now on the ‘UDL Priority’ screen – we recommend setting this to High [0] (which prevents HomeContol+ App events / notifications from disconnecting the UDL connection). 8.4.2 On InSite UDL software from a PC 1. To setup the COM port associated to “modem” open the software, click on “Configuration”, choose “Modem Settings” and select “RS-232” option 2. Make sure that the serial COM used by UDL is the set the same in the PC (Control Panel -> Device Manager -> Ports) 3. Make sure that the UDL Graphic user interface has the RS-232 icon green colored and glowing 4. Click on “Force Dial Customer” 5. Set “Dial Mode” field to “RS-232” 6. Enter the Engineer code in the “Engineer Code” field 7. Click on “dial” 8. If connection is successful, the RS-232 icon will become blue
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PCX 46 App Installation Reference 8.4.3 Modem Connection DIGI-1200 (PSTN) On the Panel: (Ensure that the panel and remote PC are connected to a suitable PSTN line). 1. 2. 3. 4. 5. 6.
Enter the Engineer Menu (code 9999) Scroll the menu (x button) until the “Options Up/Downloading” Choose Modem in the “Download by” option Set the desired number of redials and Press t Now on the ‘UDL Password’ screen – DO NOT USE – leave blank and Press t Now on the ‘Site Name’ screen – this is optional – if you enter a site name, make sure that you take a note of it for use later in the Insite software – or leave blank – then press t 7. Now on the ‘UDL Priority’ screen – we recommend setting this to High [0] (which prevents HomeContol+ App events / notifications from disconnecting the UDL connection). On InSite UDL software from a PC 1. To setup the COM port associated to “modem” open the software, click on “Configuration”, choose “Modem Settings” and select “MODEM” option 2. Verify that COM port associated to “Modem” in the UDL is the same set in the PC 3. Verify that the modem Icon is green and glowing in the software Graphic User Interface 4. In the “Configurations” menu choose the “Modem Type” from the drop down menu. This is the modem connected to the PC and used to call the panel 5. Press “Load Default String” to program the right initialization string for the selected modem 6. Click on “Force Dial customer” 7. Set “Dial Mode” field to “MODEM” and insert the telephone number in “Telephone Number” field 8. Enter the Engineer code in the “Engineer Code” field and then Click on “dial” 10. If connection is successful, the modem Icon will become blue. 8.4.4 Modem Connection (DIGI-GPRS or DIGI-LAN) On the Panel: Make sure that the panel is connected to the GPRS network (or the LAN cable to a suitable internet connection) on a Data enabled SIM card. 1. 2. 3. 4. 5. 6. 7. 8. 9.
Enter the Engineer Menu (code 9999) Scroll the menu (x button) until the “Options Up/Downloading” – Press t Choose ‘Cloud’ (option 6) in the “Download by” option – Press t Make a note of your System ID (to enter in the Insite software later) - Press t Select Security level – for initial connections we recommend [0] (normal) - Press t Create/enter a system password and take note of it - Press t Now on the ‘Poll Server’ screen – select ‘Yes’ [1] and press t Now on the ‘UDL Password’ screen – DO NOT USE – leave blank and Press t Now on the ‘Site Name’ screen – this is optional – if you enter a site name, make sure that you take a note of it for use later in the Insite software – or leave blank – then press t 10. Now on the ‘UDL Priority’ screen – we recommend setting this to High [0] (which prevents HomeContol+ App events / notifications from disconnecting the UDL connection).
On InSite UDL software from a PC 1. 2. 3. 4. 5. 6. 7. 8. 9.
Click on ‘Roving Dial customer’ (or hold Ctrl and press the F10 key). Click on the ‘Dial Out Mode’ drop down list – and select ‘Cloud’ Enter the ‘System ID’ of your Panel (See ‘Set Up Downloading’ in the panel Engineer menu) Enter ‘system password’ (as entered in ‘Set Up Downloading’ in the panel Engineer menu) Leave the UDL security at ‘normal’ for initial connection test in ‘System Security Level’ field). Enter the engineer code as used on the panel you are trying to connect. Enter ‘Site Name’ as entered in panel ONLY if it was entered on the panel –otherwise, leave blank. Enter an appropriate panel name into the ‘Enter Customer In Database As’ field. Click ‘Dial’. If connection is successful, the Cloud Icon will become blue, and a dialogue box will appear asking if you would like to create a customer – click ‘yes’ to continue. 10. The PCX 46 APP control panel is now successfully connected to the Insite UDL software.
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9. EN 50131 Terminology PCX 46 APP Language
EN50131 Language
ARM
Set
Disarm
Unset
Day or Disarmed Mode
Unset State (may be relevant to a specific partition)
Personal Attack (PA)
Hold Up (HU)
Bypass
Inhibit
Unused
Isolated
Bell / External Sounder / SAB
External Warning Device (self-powered is assumed)
Main Sounder / Speaker
Device combining internal warning device with audible indicator (using different tones and volumes)
Prox card, Tag, or wireless keyfob
Digital Key
10. Access Levels Level Level Level Level
1: 2: 3: 4:
Access by any person; for example the general public. User access by an operator; for example customers (systems users). User access by an engineer; for example an alarm company professional. User access by the manufacturer of the equipment.
Note: Alarm, tamper and fault indications will automatically be cleared within 3 minutes. If a user has finished viewing the information they can terminate the display instantly by pressing the t key.
11. Compliance As per EN 50131-1 the PCX 46 APP is capable of supporting all conditions A,B and C: In Grades 1 & 2 I&HAS when an I&HAS or part thereof is in a set state: a) access to the supervised premises or part thereof, via an entry/exit route, shall be prevented, or b) opening the door to the entry/exit route shall initiate an entry procedure, or c) indication of the set/unset status shall be provided. In Grades 3 & 4 I&HAS when an I&HAS or part thereof is in a set state: a) access to the supervised premises or part thereof, via an entry/exit route, shall be prevented, or b) opening the door to the entry/exit route shall initiate an entry procedure.
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NOTES
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PCX 46 APP
Secure Holdings Pyronix House Braithwell Way Hellaby Rotherham S66 8QY Email:
[email protected] Website: www.pyronix.com
